The document provides information on ignition systems for 2.5L 4-cylinder and 4.0L 6-cylinder engines, including:
- The ignition system is controlled by the powertrain control module (PCM) and consists of spark plugs, ignition coil, distributor with camshaft position sensor, and various sensors.
- The distributor houses the camshaft position sensor which provides fuel injection synchronization. It does not have adjustable timing.
- The crankshaft position sensor mounted on the transmission bellhousing provides engine speed and position to the PCM.
This technical service manual provides guidance on troubleshooting Balboa control systems for hot tubs. It outlines safety procedures and lists required tools. It describes the main components of Balboa control systems including the topside control panel, circuit board, temperature and high-limit sensors. The manual provides steps for checking wiring, voltages and components. It also explains how to interpret error messages and test the circuit board and its outputs. Procedures for replacing circuit boards are included as well as information on optional features and different circuit board models.
This document provides information about instrument panel systems on a vehicle model. It discusses the instrument cluster and panel, which house various controls, gauges and indicators. The cluster can be either low-line or high-line, containing analog gauges and indicator lamps. The panel uses a modular design for easy service access. Component locations and diagnostic procedures are outlined.
This document provides instructions for troubleshooting Balboa control systems for pools and spas. It describes key system components like the topside control panel, circuit board, temperature and high-limit sensors. It provides steps for checking wiring, voltages, and troubleshooting common issues like low voltage, blown fuses, and error messages. Safety tips are included to avoid shock when working with high voltage equipment.
This document provides a technical service manual for troubleshooting and repairing Balboa M-7 control systems. It includes:
- An overview of system components and tools needed for service
- Instructions for performing wiring checks, voltage checks, and troubleshooting common issues
- Information on circuit boards, dip switch settings, and spa behavior
- Guidance on testing components and replacing circuit boards
The manual aims to help qualified technicians efficiently service Balboa control systems.
This document provides a technical service manual for Balboa control systems used in spas and pools. It details troubleshooting steps for common issues, including checking wiring, voltages, and components. It describes the key system components like the circuit board, temperature sensors, and control panel. Checklists are provided for safety, tools, and testing procedures.
This document is a technical service manual from Balboa Instruments that provides guidance on servicing Balboa control systems for spas. It includes sections on safety, required tools and components, system descriptions, troubleshooting wiring and voltage issues, testing circuit boards, changing circuit boards, filter settings, optional features, and information on specific Balboa circuit board models. The manual aims to help qualified technicians safely service Balboa control systems.
This document is the user's guide for the ALTIVAR® 11 adjustable speed drive controllers. It provides information on technical specifications, installation, wiring, programming, maintenance and troubleshooting. The guide covers the North American, European and Asian product ranges which are used to control three-phase asynchronous motors from 0.25 to 3 hp and 208/230/240 V single-phase power. It contains safety warnings and instructions on mounting, electrical connections, programming parameters and fault diagnosis.
The document is the operating manual for the VX-6R dual band heavy duty submersible transceiver. It provides instructions on installation and use of accessories, controls and connections, basic operation, advanced features, memory functions, scanning, CTCSS/DCS operations, and other settings. The VX-6R offers 5 watts of transmit power on 144/430 MHz bands, and receives frequencies from MF through UHF including amateur, broadcast, aircraft, and public service bands.
This technical service manual provides guidance on troubleshooting Balboa control systems for hot tubs. It outlines safety procedures and lists required tools. It describes the main components of Balboa control systems including the topside control panel, circuit board, temperature and high-limit sensors. The manual provides steps for checking wiring, voltages and components. It also explains how to interpret error messages and test the circuit board and its outputs. Procedures for replacing circuit boards are included as well as information on optional features and different circuit board models.
This document provides information about instrument panel systems on a vehicle model. It discusses the instrument cluster and panel, which house various controls, gauges and indicators. The cluster can be either low-line or high-line, containing analog gauges and indicator lamps. The panel uses a modular design for easy service access. Component locations and diagnostic procedures are outlined.
This document provides instructions for troubleshooting Balboa control systems for pools and spas. It describes key system components like the topside control panel, circuit board, temperature and high-limit sensors. It provides steps for checking wiring, voltages, and troubleshooting common issues like low voltage, blown fuses, and error messages. Safety tips are included to avoid shock when working with high voltage equipment.
This document provides a technical service manual for troubleshooting and repairing Balboa M-7 control systems. It includes:
- An overview of system components and tools needed for service
- Instructions for performing wiring checks, voltage checks, and troubleshooting common issues
- Information on circuit boards, dip switch settings, and spa behavior
- Guidance on testing components and replacing circuit boards
The manual aims to help qualified technicians efficiently service Balboa control systems.
This document provides a technical service manual for Balboa control systems used in spas and pools. It details troubleshooting steps for common issues, including checking wiring, voltages, and components. It describes the key system components like the circuit board, temperature sensors, and control panel. Checklists are provided for safety, tools, and testing procedures.
This document is a technical service manual from Balboa Instruments that provides guidance on servicing Balboa control systems for spas. It includes sections on safety, required tools and components, system descriptions, troubleshooting wiring and voltage issues, testing circuit boards, changing circuit boards, filter settings, optional features, and information on specific Balboa circuit board models. The manual aims to help qualified technicians safely service Balboa control systems.
This document is the user's guide for the ALTIVAR® 11 adjustable speed drive controllers. It provides information on technical specifications, installation, wiring, programming, maintenance and troubleshooting. The guide covers the North American, European and Asian product ranges which are used to control three-phase asynchronous motors from 0.25 to 3 hp and 208/230/240 V single-phase power. It contains safety warnings and instructions on mounting, electrical connections, programming parameters and fault diagnosis.
The document is the operating manual for the VX-6R dual band heavy duty submersible transceiver. It provides instructions on installation and use of accessories, controls and connections, basic operation, advanced features, memory functions, scanning, CTCSS/DCS operations, and other settings. The VX-6R offers 5 watts of transmit power on 144/430 MHz bands, and receives frequencies from MF through UHF including amateur, broadcast, aircraft, and public service bands.
This document provides information about servicing an engine, including:
- The lubrication system uses an oil pump to circulate oil through galleries to lubricate components like the crankshaft and camshaft bearings.
- To diagnose noisy tappets, check the oil level and pressure, and listen to each tappet/spring individually with the covers off. Low oil level or pressure can cause noise.
- Valve service procedures include cleaning, inspecting, refacing, and adjusting valve stem-to-guide clearance. The front engine mounts on each side are removed using similar procedures after disconnecting the battery.
This document provides information on the base brake system for an XJ vehicle. It includes descriptions and operation of various brake components, such as the brake pedal, master cylinder, combination valve, disc brakes, and drum brakes. The document is organized by topic with sections on general information, descriptions, diagnosis, removal/installation, and specifications.
Perkins 2800 series 2806 c e16 diesel engine service repair manualdfjjsekksekmsw
This document is a workshop manual for Perkins 2800 Series Model 2806C-E16 6 cylinder turbocharged diesel engines. It contains specifications, repair and maintenance instructions across 16 chapters covering all major engine systems. The manual is intended to assist technicians in servicing and repairing these industrial diesel engines.
The document provides maintenance interval schedules for a marine engine. It lists maintenance tasks that should be performed daily, every 50 service hours, 250 service hours, 1000 service hours, and other intervals. Tasks include checking fluid levels, cleaning filters, replacing belts, and inspecting components like the alternator, valves, and pumps. The schedule provides detailed guidance for maintaining the engine over its lifespan.
This hardware maintenance manual provides service and reference information for the ThinkPad R61, R61e, and R61i (15.4-inch widescreen) laptop computers. It is intended for trained service technicians who are familiar with ThinkPad products. The manual includes safety guidelines, general service information, symptom to FRU index, hardware replacement procedures, locations of major components, and parts listing.
This document provides operation and safety instructions for a Westfalia Separator centrifuge.
The 6-page document includes:
1) Safety precautions and warnings for operating the centrifuge.
2) Descriptions of the centrifuge components and operating principles.
3) Instructions for installation, operation, maintenance, and repairs, including lubrication schedules and cleaning procedures.
4) Troubleshooting tips and accessories information.
This document provides an overview and troubleshooting information for an engine control module (ECM) and ski control module (SKIM) system. It describes the functional operation of the ECM and SKIM, including on-board diagnostics, operating modes, and monitored circuits. The document outlines diagnostic trouble codes for each module, safety procedures, required tools, and provides detailed troubleshooting steps for various issues related to sensors, injectors, communication failures, and more.
This document provides an overview of new features for several Toyota vehicle models, including the Corolla, MR2, Avensis, and Land Cruiser/Land Cruiser Prado. Key points include:
- The Corolla features a new 1CD-FTV engine and E351 manual transmission. The MR2 features a sequential manual transmission.
- The Avensis adds 1AZ-FSE, 1ZZ-FE and 3ZZ-FE engine options, replacing the 4A-FE and 7A-FE. It also features new automatic and manual transmission options.
- The Land Cruiser/Land Cruiser Prado is powered by a new 1KD-FTV turbo diesel engine and features an
This document is an operator's manual for CLAAS Combine Harvesters models DOMINATOR 76, DOMINATOR 66, and DOMINATOR 56. It provides information on setting up, operating, and servicing the combines. The manual covers all major systems and components of the combines, including safety rules, specifications, controls and displays, adjustments, operation, maintenance procedures, troubleshooting, and specifications for optional equipment. Proper use and maintenance following the instructions in the manual will provide reliable service from the combine.
This document provides information about the cooling system for XJ vehicles. It discusses the components of the cooling system such as the radiator, fans, thermostat, hoses, water pumps and how coolant flows through the system. It also describes that the cooling system regulates engine temperature, maintains normal operating temperature and prevents overheating. The cooling system uses a water pump to circulate coolant which carries heat to the radiator and heater core to be transferred to ambient air.
This document is an instruction manual for an 8FG 8-channel radio control system. It includes sections on features, specifications, controls, installation, basic operation, programming menus and functions, and safety precautions. The manual provides guidance on setup, use, and maintenance of the radio system.
This document is a technical manual for the new Toyota Avensis/Corona vehicle models. It provides an overview of the manual's contents and sections. Section 1 introduces the exterior design and model codes. Section 2 outlines the new features, including the body design, engine types, drivability, safety features, and comfort features. Section 3 provides detailed technical descriptions and specifications for the engine, chassis, body, and electrical systems. The manual aims to explain the construction and operation of new mechanisms and technologies used in the Avensis/Corona models.
Man industrial gas engine e 2842 e 312 service repair manualjksmjekmd
This document provides instructions for repairing MAN diesel engines. It includes safety guidelines, diagrams of engine systems, procedures for maintenance and repairs of engine components, specifications and service data. The document aims to help technicians properly perform repairs by outlining important safety information and step-by-step repair instructions.
The document provides information on diagnosing issues with a vehicle's power window control system. It includes:
1) A system diagram showing the components of the power window control system including the BCM, power window switches, motors and encoders.
2) A description of the system including functions like auto-open/close, anti-pinch, retained power operation and use of serial communication between components.
3) Sections on inspecting individual components, performing diagnostics, addressing specific symptoms, and precautions for repairs. The document provides a thorough overview of analyzing and troubleshooting power window problems.
The document discusses the Siemens MS 42.0 engine control system used in BMW M52TU engines from 1998-2000. It provides an overview of the On Board Diagnostics (OBD II) system requirements including monitoring components that affect emissions and illuminating the malfunction indicator light if issues are detected. It also discusses emission compliance levels required by the National Low Emission Vehicle Program and describes the Federal Test Procedure driving cycle used to test vehicle emissions.
This document provides information on the base brake system for an XJ vehicle. It includes descriptions and operation of various brake components, such as the brake pedal, master cylinder, combination valve, disc brakes, and drum brakes. The document is organized by topic and includes sections on general information, descriptions and operation, diagnosis and testing, removal and installation, and specifications.
Komatsu d39 p 1 dozer bulldozer service repair manual sn p095872 and upjfskemsemm
This shop manual provides service information for Komatsu crawler tractors, including specifications, tolerances, pressures, lubricants, torques, tests, adjustments, and assembly tips for various components. The manual is divided into sections covering topics such as brakes, cooling, drive train, electrical systems, hydraulics, engines, undercarriage, and mounted equipment. It is intended to be used by technicians working on the specified models and should be kept up-to-date with the latest revisions.
Komatsu td 8 h dozer bulldozer service repair manual sn p036255 and upfjskekazswdmme
This shop manual provides service information for TD-7H, TD-8H, and TD-9H crawler tractors, including specifications, tolerances, lubrication requirements, disassembly and reassembly instructions for major components. The manual is divided into sections covering various systems such as brakes, drive train, hydraulics, electrical, engine, undercarriage, and mounted equipment. Safety precautions are provided at the beginning to ensure safe handling of equipment during repair.
Komatsu td 9 h dozer bulldozer service repair manual sn p046275 and upfhhsjdkmem
This shop manual provides service information for TD-7H, TD-8H, and TD-9H crawler tractors, including specifications, tolerances, lubrication requirements, disassembly and reassembly instructions for major components. The manual is divided into sections covering various systems such as brakes, drive train, hydraulics, electrical, engine, undercarriage, and mounted equipment. Safety precautions are provided at the beginning to ensure safe handling of equipment during repair.
This document is a maintenance manual for the SP 3400 Series trucks produced by Crown Equipment Corporation. It contains safety information, procedures for maintenance and repair work, lubrication charts, and descriptions of truck components. The manual is intended exclusively for authorized service technicians and businesses. It must not be shared with or passed to third parties.
This document is a technical service manual for Balboa control systems. It provides information on troubleshooting various issues with Balboa M-7 systems, including the SUV, Value M-7, 2000LE M-7, Prestige, and Elite systems. The manual covers checking wiring, voltages, circuit boards, error messages, and more. It is intended to aid qualified service technicians in repairing spas.
This document is the user's guide for the ALTIVAR® 11 adjustable speed drive controllers. It provides information on technical specifications, installation, wiring, programming, maintenance and troubleshooting of the drive controllers. The guide covers the North American, European and Asian product ranges and is intended to help qualified personnel safely install, operate and maintain the variable speed drives. Safety warnings are included and personnel are instructed to verify safe voltage levels before servicing the equipment.
This document provides information about servicing an engine, including:
- The lubrication system uses an oil pump to circulate oil through galleries to lubricate components like the crankshaft and camshaft bearings.
- To diagnose noisy tappets, check the oil level and pressure, and listen to each tappet/spring individually with the covers off. Low oil level or pressure can cause noise.
- Valve service procedures include cleaning, inspecting, refacing, and adjusting valve stem-to-guide clearance. The front engine mounts on each side are removed using similar procedures after disconnecting the battery.
This document provides information on the base brake system for an XJ vehicle. It includes descriptions and operation of various brake components, such as the brake pedal, master cylinder, combination valve, disc brakes, and drum brakes. The document is organized by topic with sections on general information, descriptions, diagnosis, removal/installation, and specifications.
Perkins 2800 series 2806 c e16 diesel engine service repair manualdfjjsekksekmsw
This document is a workshop manual for Perkins 2800 Series Model 2806C-E16 6 cylinder turbocharged diesel engines. It contains specifications, repair and maintenance instructions across 16 chapters covering all major engine systems. The manual is intended to assist technicians in servicing and repairing these industrial diesel engines.
The document provides maintenance interval schedules for a marine engine. It lists maintenance tasks that should be performed daily, every 50 service hours, 250 service hours, 1000 service hours, and other intervals. Tasks include checking fluid levels, cleaning filters, replacing belts, and inspecting components like the alternator, valves, and pumps. The schedule provides detailed guidance for maintaining the engine over its lifespan.
This hardware maintenance manual provides service and reference information for the ThinkPad R61, R61e, and R61i (15.4-inch widescreen) laptop computers. It is intended for trained service technicians who are familiar with ThinkPad products. The manual includes safety guidelines, general service information, symptom to FRU index, hardware replacement procedures, locations of major components, and parts listing.
This document provides operation and safety instructions for a Westfalia Separator centrifuge.
The 6-page document includes:
1) Safety precautions and warnings for operating the centrifuge.
2) Descriptions of the centrifuge components and operating principles.
3) Instructions for installation, operation, maintenance, and repairs, including lubrication schedules and cleaning procedures.
4) Troubleshooting tips and accessories information.
This document provides an overview and troubleshooting information for an engine control module (ECM) and ski control module (SKIM) system. It describes the functional operation of the ECM and SKIM, including on-board diagnostics, operating modes, and monitored circuits. The document outlines diagnostic trouble codes for each module, safety procedures, required tools, and provides detailed troubleshooting steps for various issues related to sensors, injectors, communication failures, and more.
This document provides an overview of new features for several Toyota vehicle models, including the Corolla, MR2, Avensis, and Land Cruiser/Land Cruiser Prado. Key points include:
- The Corolla features a new 1CD-FTV engine and E351 manual transmission. The MR2 features a sequential manual transmission.
- The Avensis adds 1AZ-FSE, 1ZZ-FE and 3ZZ-FE engine options, replacing the 4A-FE and 7A-FE. It also features new automatic and manual transmission options.
- The Land Cruiser/Land Cruiser Prado is powered by a new 1KD-FTV turbo diesel engine and features an
This document is an operator's manual for CLAAS Combine Harvesters models DOMINATOR 76, DOMINATOR 66, and DOMINATOR 56. It provides information on setting up, operating, and servicing the combines. The manual covers all major systems and components of the combines, including safety rules, specifications, controls and displays, adjustments, operation, maintenance procedures, troubleshooting, and specifications for optional equipment. Proper use and maintenance following the instructions in the manual will provide reliable service from the combine.
This document provides information about the cooling system for XJ vehicles. It discusses the components of the cooling system such as the radiator, fans, thermostat, hoses, water pumps and how coolant flows through the system. It also describes that the cooling system regulates engine temperature, maintains normal operating temperature and prevents overheating. The cooling system uses a water pump to circulate coolant which carries heat to the radiator and heater core to be transferred to ambient air.
This document is an instruction manual for an 8FG 8-channel radio control system. It includes sections on features, specifications, controls, installation, basic operation, programming menus and functions, and safety precautions. The manual provides guidance on setup, use, and maintenance of the radio system.
This document is a technical manual for the new Toyota Avensis/Corona vehicle models. It provides an overview of the manual's contents and sections. Section 1 introduces the exterior design and model codes. Section 2 outlines the new features, including the body design, engine types, drivability, safety features, and comfort features. Section 3 provides detailed technical descriptions and specifications for the engine, chassis, body, and electrical systems. The manual aims to explain the construction and operation of new mechanisms and technologies used in the Avensis/Corona models.
Man industrial gas engine e 2842 e 312 service repair manualjksmjekmd
This document provides instructions for repairing MAN diesel engines. It includes safety guidelines, diagrams of engine systems, procedures for maintenance and repairs of engine components, specifications and service data. The document aims to help technicians properly perform repairs by outlining important safety information and step-by-step repair instructions.
The document provides information on diagnosing issues with a vehicle's power window control system. It includes:
1) A system diagram showing the components of the power window control system including the BCM, power window switches, motors and encoders.
2) A description of the system including functions like auto-open/close, anti-pinch, retained power operation and use of serial communication between components.
3) Sections on inspecting individual components, performing diagnostics, addressing specific symptoms, and precautions for repairs. The document provides a thorough overview of analyzing and troubleshooting power window problems.
The document discusses the Siemens MS 42.0 engine control system used in BMW M52TU engines from 1998-2000. It provides an overview of the On Board Diagnostics (OBD II) system requirements including monitoring components that affect emissions and illuminating the malfunction indicator light if issues are detected. It also discusses emission compliance levels required by the National Low Emission Vehicle Program and describes the Federal Test Procedure driving cycle used to test vehicle emissions.
This document provides information on the base brake system for an XJ vehicle. It includes descriptions and operation of various brake components, such as the brake pedal, master cylinder, combination valve, disc brakes, and drum brakes. The document is organized by topic and includes sections on general information, descriptions and operation, diagnosis and testing, removal and installation, and specifications.
Komatsu d39 p 1 dozer bulldozer service repair manual sn p095872 and upjfskemsemm
This shop manual provides service information for Komatsu crawler tractors, including specifications, tolerances, pressures, lubricants, torques, tests, adjustments, and assembly tips for various components. The manual is divided into sections covering topics such as brakes, cooling, drive train, electrical systems, hydraulics, engines, undercarriage, and mounted equipment. It is intended to be used by technicians working on the specified models and should be kept up-to-date with the latest revisions.
Komatsu td 8 h dozer bulldozer service repair manual sn p036255 and upfjskekazswdmme
This shop manual provides service information for TD-7H, TD-8H, and TD-9H crawler tractors, including specifications, tolerances, lubrication requirements, disassembly and reassembly instructions for major components. The manual is divided into sections covering various systems such as brakes, drive train, hydraulics, electrical, engine, undercarriage, and mounted equipment. Safety precautions are provided at the beginning to ensure safe handling of equipment during repair.
Komatsu td 9 h dozer bulldozer service repair manual sn p046275 and upfhhsjdkmem
This shop manual provides service information for TD-7H, TD-8H, and TD-9H crawler tractors, including specifications, tolerances, lubrication requirements, disassembly and reassembly instructions for major components. The manual is divided into sections covering various systems such as brakes, drive train, hydraulics, electrical, engine, undercarriage, and mounted equipment. Safety precautions are provided at the beginning to ensure safe handling of equipment during repair.
This document is a maintenance manual for the SP 3400 Series trucks produced by Crown Equipment Corporation. It contains safety information, procedures for maintenance and repair work, lubrication charts, and descriptions of truck components. The manual is intended exclusively for authorized service technicians and businesses. It must not be shared with or passed to third parties.
This document is a technical service manual for Balboa control systems. It provides information on troubleshooting various issues with Balboa M-7 systems, including the SUV, Value M-7, 2000LE M-7, Prestige, and Elite systems. The manual covers checking wiring, voltages, circuit boards, error messages, and more. It is intended to aid qualified service technicians in repairing spas.
This document is the user's guide for the ALTIVAR® 11 adjustable speed drive controllers. It provides information on technical specifications, installation, wiring, programming, maintenance and troubleshooting of the drive controllers. The guide covers the North American, European and Asian product ranges and is intended to help qualified personnel safely install, operate and maintain the variable speed drives. Safety warnings are included and personnel are instructed to verify safe voltage levels before servicing the equipment.
This document provides installation, operation and maintenance instructions for various oil-free rotary screw air compressor models. It describes the general design and components of the compressors, including safety features, cooling and lubrication systems, electrical components, and optional controls. Installation instructions cover location, piping, wiring, startup checks and settings. Operating instructions explain the basic startup, operation and shutdown sequences. Interface features of the Xe-90M/145M control panel are also outlined.
The document provides information on troubleshooting and servicing Balboa spa and electrical equipment. It describes Balboa's patented M7 technology which uses two sensors to determine water flow and temperature without external switches. It also outlines how to check wiring, voltage, panels, boards, heaters and more when servicing spa systems. Procedures for replacing parts and diagnosing issues are provided.
This document is the operator's manual for the GX-2009 Portable Gas Monitor made by RKI Instruments. It provides 3 pages of specifications and descriptions of the device and its components. It also provides detailed instructions over many pages on starting up, operating, calibrating, maintaining and troubleshooting the gas monitor. The manual contains important safety warnings and cautions the user to fully understand the instructions before operating the device.
The document is an illustrated album providing detailed diagrams and specifications for various components of VAZ 21213 and 21214 vehicles, including the engine, drivetrain, suspension, brakes, electrical systems, and body. The engine section includes diagrams of the 4-cylinder, 1.69L engine showing components like the crankshaft, pistons, valves and their operation, as well as the lubrication, cooling and fuel systems. Other areas covered include the 5-speed manual transmission, front-wheel drive train, independent front and rear suspension, braking mechanism and wiring diagrams for electrical systems. Specifications provided include payload, dimensions, performance and technical details of the vehicles and their parts.
This document provides a technical service manual for troubleshooting and repairing Balboa M-7 spa control systems. It includes safety tips, descriptions of system components, procedures for checking wiring and voltages, troubleshooting guidance for issues like low voltage or panel messages, and instructions for testing components and replacing circuit boards. The manual is intended for qualified service technicians to aid in repairing spas.
The document is an illustration album containing diagrams and specifications for various components of VAZ vehicles 21213 and 21214, including the engine, fuel system, transmission, chassis, brakes, electrical systems and more. The engine section provides labeled diagrams of the internal combustion engine, showing components like the crankshaft, pistons, valves and their operation. Other sections cover subsystems such as the carburetor and fuel injection, cooling and lubrication systems, gearbox, axles, suspension, steering and brakes.
The document provides information on turn signal and hazard warning systems. It describes the main components, which include a combination flasher, multi-function switch, turn signal indicator lamps, and turn signal lamps. It outlines procedures for diagnosing issues and testing components like the flasher and switch. Removal and installation instructions are provided for the multi-function switch and combination flasher.
This document provides information about steering systems for ZJ vehicles. It describes the major components of the power steering system including the recirculating ball steering gear, steering linkage, power steering pump, and steering column. It provides details on identifying codes for the steering gear and pump as well as diagnosing common noise complaints.
The document provides information about rear suspension and axles for a Grand Cherokee vehicle. It describes the main components of the rear suspension system, including coil springs, upper and lower suspension arms, shock absorbers, stabilizer bar, track bar, and jounce bumpers. It also explains how the standard differential allows the axle shafts to rotate at different speeds when turning corners to compensate for the longer path of the outside wheel. The Model 35 axle used in the Grand Cherokee can be equipped with an optional Trac-Lok limited slip differential.
This document provides an overview of fuel delivery systems for vehicles with 4.0L and 5.2L engines. It describes the components of the fuel pump module, which is mounted in the fuel tank and contains the electric fuel pump, fuel pressure regulator, and in-tank fuel filter. The fuel pressure regulator is no longer mounted on the fuel rail. Procedures are provided for releasing fuel system pressure before servicing, and for testing fuel system pressure.
This document appears to be an electronic service manual for the 1995 Jeep Grand Cherokee. The logo on the page links to instructions when clicked. The page requests the user click the link for further information.
The document provides information on standard service procedures for engines, including form-in-place gaskets, honing cylinder bores, measuring crankshaft and connecting rod bearing clearances using Plastigage, repairing damaged or worn threads using a Heli-Coil tap, and servicing a 4.0L engine assembly (short block). It includes diagrams and step-by-step instructions for compression testing, measuring bearing clearance, and honing cylinder bores. Tables of contents and indexes provide page references for additional information on specific engines and procedures.
This document provides information about power mirrors and an automatic day/night rear view mirror on Jeep Grand Cherokee models. It describes the major components of these systems and their functions. The document also provides diagnostic procedures to test the power mirror switch and motors, as well as the automatic rear view mirror. Finally, it lists the service procedures for removing and installing the power mirror switch and removing the power mirrors and automatic rear view mirror.
The document discusses various exterior body components of a vehicle. It provides removal and installation instructions for components like the grille, headlamps, hood, hood latches and related parts. The document is organized in sections covering the grille/reinforcement, radiator support, hood, hood hinges/latches/striker and other exterior parts. Diagrams and step-by-step instructions are provided for servicing these exterior body parts.
This document provides information about power seats in Jeep Grand Cherokee models. It describes the major components of the power seat system, including the power seat switch and three reversible motors that operate the seat adjustments. The document provides guidance on diagnosing issues with the power seat motors or switch, including continuity tests of the switch connections. It also outlines procedures for removing and installing the power seat switch and motor/adjuster assembly.
This document provides information about a vehicle theft alarm system, including:
- General descriptions of how the system arms, disarms, and responds to unauthorized access attempts.
- Instructions for performing self-diagnosis tests to check the operation of sensors and circuits.
- Procedures for technicians to remove and install the VTA module, which involves removing various dash panel components.
- Steps for technicians to diagnose the system using the self-diagnosis mode and by checking for proper horn responses from sensors.
This document contains information about brakes for a vehicle model. It includes sections on general brake information, ABS brakes, changes for the 1995 model year, brake components, fluids and cleaning products, safety precautions, and an index of topics. The key points are:
- The vehicle uses power assisted four-wheel disc brakes with ABS standard on all models.
- Changes for 1995 include different master cylinder, power brake booster, and hydraulic control unit components for the ABS system.
- Safety precautions for working on brakes include wearing protective equipment and properly disposing of any potential asbestos dust.
This document provides information about exhaust systems and intake manifolds. It discusses the basic components of exhaust systems, including exhaust manifolds, pipes, catalytic converters, heat shields, mufflers and tailpipes. It describes symptoms of exhaust system problems and provides procedures for removing and installing exhaust pipes and manifolds. Intake manifolds and catalytic converters are also discussed.
The document provides general information about emission control systems, including:
1) It describes the different emission control components and systems used on 4.0L and 5.2L engines.
2) It explains how the on-board diagnostic system checks for faults in emission components like the EGR and EVAP systems.
3) It provides an overview of the evaporative emission control system and its components like the EVAP canister.
The document provides information about the overhead console in Jeep Grand Cherokee models. It describes the different types of overhead consoles that are used depending on whether the vehicle has a power sunroof option. It also describes the major components in the overhead console including the trip computer, compass, thermometer, reading lamps, remote garage door opener storage, and sunglasses storage. The document provides details on diagnosing issues with these components through self-diagnostic tests and flow charts.
This document provides general information about audio systems for Jeep Grand Cherokee models. It describes components such as radios, speakers, antennas, and amplifiers. It also provides diagnostic procedures and service instructions for removing and installing these components.
This document provides information about cooling system diagnosis and service procedures for a vehicle. It includes:
- An overview of cooling system components and coolant routing
- Diagnosis charts to help identify potential causes of overheating
- Procedures for testing the water pump, draining and refilling the cooling system, and replacing components like the radiator, hoses, thermostat, and water pump.
- Cautions for working on the high-pressure cooling system and ensuring the correct rotating water pump is installed.
This document provides contact information for obtaining special service tools in the United States, Canada, and internationally. The same tools or their equivalent are required for certain vehicle service operations and can be obtained from local sources or through the listed contacts, which include addresses and phone/fax numbers for Miller Special Tools in Michigan and C&D Riley Enterprises in Ontario.
The document provides information about manual transmissions and transfer cases used in Jeep vehicles, including:
- An index listing transmission and transfer case models covered
- Service information for the AX15 5-speed manual transmission, including identification, gear ratios, lubrication, diagnosis and repair procedures
- Procedures for transmission removal, disassembly, component inspection and installation
The document provides information about diagnosing issues with a vehicle's rear window defogger system. It describes the major components of the system, including the rear window glass grid, defogger switch, and defogger relay/timer. It then lists steps to test overall system operation and to isolate problems, such as using a voltmeter to check for breaks in the glass grid lines or testing power supply to the relay.
EV Charging at MFH Properties by Whitaker JamiesonForth
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2. PCM CONNEC- ORS
(3) 32-WAY
T SYNC ASSEMBLY
DISTRIBUTOR
GENERATOR
SIGNAL PULSE RING
CAMSHAFT SEN-
POSITION SOR
8D - 2 IGNITION SYSTEM XJ
DESCRIPTION AND OPERATION (Continued)
• Secondary Ignition Cables
• Distributor (contains rotor and camshaft position
sensor)
• Powertrain Control Module (PCM)
• Crankshaft Position, Camshaft Position, Throt-
tle Position and MAP Sensors
POWERTRAIN CONTROL MODULE
The Powertrain Control Module (PCM) is located
in the engine compartment (Fig. 1).
Fig. 2 Distributor and Camshaft Position Sensor-
Typical
timing is controlled by the PCM, base ignition tim-
ing is not adjustable on any of these engines.
The distributor is locked in place by a fork with a
slot located on the distributor housing base. The dis-
tributor holddown clamp bolt passes through this slot
when installed. Because the distributor position is
locked when installed, its rotational position can not
be changed. Do not attempt to modify the dis-
Fig. 1 Powertrain Control Module (PCM) Location
tributor housing to get distributor rotation.
The ignition system is controlled by the PCM. Distributor position will have no effect on igni-
tion timing. The position of the distributor will
NOTE: Base ignition timing by rotation of distribu- determine fuel synchronization only.
tor is not adjustable. All distributors contain an internal oil seal that
prevents oil from entering the distributor housing.
The PCM opens and closes the ignition coil ground The seal is not serviceable.
circuit to operate the ignition coil. This is done to
adjust ignition timing, both initial (base) and SPARK PLUGS
advance, and for changing engine operating condi- All engines use resistor type spark plugs. Remove
tions. the spark plugs and examine them for burned elec-
The amount of electronic spark advance provided trodes and fouled, cracked or broken porcelain insu-
by the PCM is determined by five input factors: lators. Keep plugs arranged in the order in which
engine coolant temperature, engine rpm, intake man- they were removed from the engine. A single plug
ifold temperature, manifold absolute pressure and displaying an abnormal condition indicates that a
throttle position. problem exists in the corresponding cylinder. Replace
spark plugs at the intervals recommended in Group
DISTRIBUTOR O, Lubrication and Maintenance
All engines are equipped with a camshaft driven Spark plugs that have low milage may be cleaned
mechanical distributor containing a shaft driven dis- and reused if not otherwise defective, carbon or oil
tributor rotor. All distributors are equipped with an fouled. Refer to the Spark Plug Condition section of
internal camshaft position (fuel sync) sensor (Fig. 2). this group.
This sensor provides fuel injection synchronization
and cylinder identification. SPARK PLUG CABLES
The distributors on both the 2.5L 4-cylinder and Spark plug cables are sometimes referred to as sec-
the 4.0L-6 cylinder engines do not have built in cen- ondary ignition wires. These cables transfer electrical
trifugal or vacuum assisted advance. Base ignition current from the ignition coil(s) and/or distributor, to
timing and all timing advance is controlled by the individual spark plugs at each cylinder. The resistive
powertrain control module (PCM). Because ignition spark plug cables are of nonmetallic construction.
3. PIGTAIL
CRANKSHAFT GROMMET
ELECTRICAL POSITION
CONNECTOR
RUBBER
NESS
HAR- SEN-
SOR
CLAMP NUT MOUNTING BOLTS (2)
TRANSMISSIONHOUSING
BELL- NOTCHES TION SENSOR
CRANKSHAFT POSI- FLYWHEEL
XJ IGNITION SYSTEM 8D - 3
DESCRIPTION AND OPERATION (Continued)
The cables provide suppression of radio frequency generates pulses that are the input sent to the pow-
emissions from the ignition system. ertrain control module (PCM). The PCM interprets
the sensor input to determine the crankshaft posi-
IGNITION COIL tion. The PCM then uses this position, along with
Battery voltage is supplied to the ignition coil pos- other inputs, to determine injector sequence and igni-
itive terminal from the ASD relay. tion timing.
The Powertrain Control Module (PCM) opens and The sensor is a hall effect device combined with an
closes the ignition coil ground circuit for ignition coil internal magnet. It is also sensitive to steel within a
operation. certain distance from it.
Base ignition timing is not adjustable on any
engine. By controlling the coil ground circuit, the SENSOR OPERATION
PCM is able to set the base timing and adjust the The flywheel/drive plate has groups of four notches
ignition timing advance. This is done to meet chang- at its outer edge. On 4.0L 6-cylinder engines there
ing engine operating conditions. are three sets of notches (Fig. 5). On 2.5L 4-cylinder
The ignition coil is not oil filled. The windings are engines there are two sets of notches (Fig. 4).
embedded in an epoxy compound. This provides heat The notches cause a pulse to be generated when
and vibration resistance that allows the ignition coil they pass under the sensor. The pulses are the input
to be mounted on the engine. to the PCM. For each engine revolution there are two
groups of four pulses generated on 2.5L 4-cylinder
AUTOMATIC SHUTDOWN (ASD) RELAY engines. There are 3 groups of four pulses generated
As one of its functions, the ASD relay will supply on 4.0L 6-cylinder engines.
battery voltage to the ignition coil. The ground cir- The trailing edge of the fourth notch, which causes
cuit for the ASD relay is controlled by the Powertrain the pulse, is four degrees before top dead center
Control Module (PCM). The PCM regulates ASD (TDC) of the corresponding piston.
relay operation by switching the ground circuit The engine will not operate if the PCM does not
on-and-off. receive a crankshaft position sensor input.
CRANKSHAFT POSITION SENSOR
The crankshaft position sensor is mounted to the
transmission bellhousing at the left/rear side of
engine block (Fig. 3).
Fig. 4 Sensor Operation—2.5L 4-Cyl. Engine
CAMSHAFT POSITION SENSOR
The camshaft position sensor is located in the dis-
tributor on all engines.
The sensor contains a hall effect device called a
Fig. 3 Crankshaft Position Sensor—Typical sync signal generator to generate a fuel sync signal.
Engine speed and crankshaft position are provided This sync signal generator detects a rotating pulse
through the crankshaft position sensor. The sensor ring (shutter) on the distributor shaft. The pulse ring
4. NOTCHES
CRANKSHAFT POSITION
SENSOR FLYWHEEL
8D - 4 IGNITION SYSTEM XJ
DESCRIPTION AND OPERATION (Continued)
INTAKE MANIFOLD AIR TEMPERATURE SENSOR
For an operational description, diagnosis and
removal/installation procedures, refer to Group 14,
Fuel System.
IGNITION SWITCH AND KEY LOCK CYLINDER
The ignition switch is located on the steering col-
umn. The Key-In-Switch is located in the ignition
switch module. For electrical diagnosis of the Key-In-
Switch, refer to Group 8U, Chime/Buzzer Warning
Systems. For removal/installation of either the key
lock cylinder or ignition switch, refer to Ignition
Switch and Key Cylinder Removal/Installation in this
group.
On vehicles equipped with an automatic transmis-
sion, a cable connects an interlock device within the
steering column assembly to the transmission floor
shift lever. This interlock device is used to lock the
transmission shifter in the PARK position when the
key is in the LOCKED or ACCESSORY position. The
interlock device is not serviceable. If repair is neces-
sary, the steering column assembly must be replaced.
Fig. 5 Sensor Operation—4.0L 6-Cyl. Engine
Refer to Group 19, Steering for procedures. The
rotates 180 degrees through the sync signal genera- shifter interlock cable can be adjusted or replaced.
tor. Its signal is used in conjunction with the crank- Refer to Group 21, Transmissions for procedures.
shaft position sensor to differentiate between fuel
injection and spark events. It is also used to synchro-
nize the fuel injectors with their respective cylinders. DIAGNOSIS AND TESTING
When the leading edge of the pulse ring (shutter)
enters the sync signal generator, the following occurs: AUTOMATIC SHUTDOWN (ASD) RELAY TEST
The interruption of magnetic field causes the voltage To perform a complete test of this relay and its cir-
to switch high resulting in a sync signal of approxi- cuitry, refer to the DRB scan tool. Also refer to the
mately 5 volts. appropriate Powertrain Diagnostics Procedures man-
When the trailing edge of the pulse ring (shutter) ual. To test the relay only, refer to Relays—Opera-
leaves the sync signal generator, the following occurs: tion/Testing in the Group 14, Fuel Systems section.
The change of the magnetic field causes the sync sig-
nal voltage to switch low to 0 volts. TESTING FOR SPARK AT COIL
MANIFOLD ABSOLUTE PRESSURE (MAP) SENSOR CAUTION: When disconnecting a high voltage
cable from a spark plug or from the distributor cap,
For an operational description, diagnosis and
twist the rubber boot slightly (1/2 turn) to break it
removal/installation procedures, refer to Group 14,
loose (Fig. 6). Grasp the boot (not the cable) and
Fuel System.
pull it off with a steady, even force.
ENGINE COOLANT TEMPERATURE SENSOR (1) Disconnect the ignition coil secondary cable
For an operational description, diagnosis and from center tower of the distributor cap. Hold the
removal/installation procedures, refer to Group 14, cable terminal approximately 12 mm (1/2 in.) from a
Fuel System. good engine ground (Fig. 7).
THROTTLE POSITION SENSOR WARNING: BE VERY CAREFUL WHEN THE
For an operational description, diagnosis and ENGINE IS CRANKING. DO NOT PUT YOUR HANDS
removal/installation procedures, refer to Group 14, NEAR THE PULLEYS, BELTS OR THE FAN. DO NOT
Fuel System. WEAR LOOSE FITTING CLOTHING.
5. CHECK SPARK
CABLE
SPARK HERE
FOR BOOT
PLUG
AND SPARK PLUGGROUND TWIST AND PULL COIL
ENGINESPARK PLUG BOOT
A GOOD PULLER
IGNITION SECONDARYMOUNTING BOLTS (2) SECONDARY IGNITION COIL
MOUNTING BOLTS
CABLE CABLE ELECTRICAL NECTOR
ELECTRICALCON-
IGNITION COIL
NECTORCON-
XJ IGNITION SYSTEM 8D - 5
DIAGNOSIS AND TESTING (Continued)
IGNITION COIL TEST
To perform a complete test of the ignition coil and
its circuitry, refer to the DRB scan tool. Also refer to
the appropriate Powertrain Diagnostics Procedures
manual. To test the coil only, refer to the following:
The ignition coil (Fig. 8) or (Fig. 9) is designed to
operate without an external ballast resistor.
Fig. 6 Cable Removal
Fig. 8 Ignition Coil—2.5L Engine
Fig. 7 Checking for Spark—Typical
(2) Rotate (crank) the engine with the starter
motor and observe the cable terminal for a steady
arc. If steady arcing does not occur, inspect the sec-
ondary coil cable. Refer to Spark Plug Cables in this
group. Also inspect the distributor cap and rotor for
cracks or burn marks. Repair as necessary. If steady
arcing occurs, connect ignition coil cable to the dis-
tributor cap. Fig. 9 Ignition Coil—4.0L Engine
(3) Remove a cable from one spark plug. Inspect the ignition coil for arcing. Test the coil
(4) Using insulated pliers, hold the cable terminal according to coil tester manufacturer’s instructions.
approximately 12 mm (1/2 in.) from the engine cylin- Test the coil primary and secondary resistance.
der head or block while rotating the engine with the Replace any coil that does not meet specifications.
starter motor. Observe the spark plug cable terminal Refer to the Ignition Coil Resistance chart.
for an arc. If steady arcing occurs, it can be expected If the ignition coil is being replaced, the secondary
that the ignition secondary system is operating cor- spark plug cable must also be checked. Replace cable
rectly. (If the ignition coil cable is removed for if it has been burned or damaged.
this test, instead of a spark plug cable, the Arcing at the tower will carbonize the cable boot,
spark intensity will be much higher). If steady which if it is connected to a new ignition coil, will
arcing occurs at the spark plug cables, but the engine cause the coil to fail.
will not start, connect the DRB scan tool. Refer to If the secondary coil cable shows any signs of dam-
the appropriate Powertrain Diagnostic Procedures age, it should be replaced with a new cable and new
service manual.
6. 8D - 6 IGNITION SYSTEM XJ
DIAGNOSIS AND TESTING (Continued)
IGNITION COIL RESISTANCE
terminal. Carbon tracking on the old cable can cause
arcing and the failure of a new ignition coil.
FAILURE TO START TEST
To prevent unnecessary diagnostic time and wrong
test results, the Testing For Spark At Coil test
should be performed prior to this test.
WARNING: SET PARKING BRAKE OR BLOCK THE
DRIVE WHEELS BEFORE PROCEEDING WITH THIS
TEST.
(1) Unplug the ignition coil harness connector at
the coil (Fig. 9).
(2) Connect a set of small jumper wires (18 gauge
or smaller) between the disconnected harness termi-
nals and the ignition coil terminals. To determine Fig. 10 PCM and Three 32–Way Connectors
polarity at connector and coil, refer to the Wiring
Diagrams section. battery positive terminal and the coil positive termi-
(3) Attach one lead of a voltmeter to the positive nal.
(12 volt) jumper wire. Attach the negative side of (7) Make the special jumper shown in (Fig. 11).
voltmeter to a good ground. Using the jumper, momentarily ground the ignition
(4) Determine that sufficient battery voltage (12.4 coil driver circuit at the PCM connector (cavity A-7).
volts) is present for the starting and ignition sys- For cavity/terminal location of this circuit, refer to
tems. Group 8W, Wiring. A spark should be generated at
(5) Crank the engine for 5 seconds while monitor- the coil cable when the ground is removed.
ing the voltage at the coil positive terminal:
• If the voltage remains near zero during the
entire period of cranking, refer to On-Board Diagnos-
tics in Group 14, Fuel Systems. Check the Power-
train Control Module (PCM) and auto shutdown
relay.
• If voltage is at or near battery voltage and drops
to zero after 1-2 seconds of cranking, check the pow-
ertrain control module circuit. Refer to On-Board
Diagnostics in Group 14, Fuel Systems.
• If voltage remains at or near battery voltage Fig. 11 Special Jumper Ground-to-Coil Negative
during the entire 5 seconds, turn the key off. Remove Terminal
the three 32-way connectors (Fig. 10) from the PCM.
Check 32-way connectors for any spread terminals or (8) If spark is generated, replace the PCM.
corrosion. (9) If spark is not seen, use the special jumper to
(6) Remove test lead from the coil positive termi- ground the coil negative terminal directly.
nal. Connect an 18 gauge jumper wire between the (10) If spark is produced, repair wiring harness for
an open condition.
7. XJ IGNITION SYSTEM 8D - 7
DIAGNOSIS AND TESTING (Continued)
(11) If spark is not produced, replace the ignition varnish-compound applied to the rotor tip for radio
coil. interference noise suppression, will appear charred.
This is normal. Do not remove the charred com-
DISTRIBUTOR CAP pound. Test the spring for insufficient tension.
Remove the distributor cap and wipe it clean with Replace a rotor that displays any of these adverse
a dry lint free cloth. Visually inspect the cap for conditions.
cracks, carbon paths, broken towers or damaged
rotor button (Fig. 12) or (Fig. 13). Also check for
white deposits on the inside (caused by condensation
entering the cap through cracks). Replace any cap
that displays charred or eroded terminals. The
machined surface of a terminal end (faces toward
rotor) will indicate some evidence of erosion from
normal operation. Examine the terminal ends for evi-
dence of mechanical interference with the rotor tip.
Fig. 14 Rotor Inspection—Typical
IGNITION TIMING
NOTE: Base (initial) ignition timing is NOT adjust-
able on any 2.5L 4-cylinder or 4.0L 6-cylinder
Fig. 12 Cap Inspection—External—Typical engine. Do not attempt to adjust ignition timing by
rotating the distributor.
NOTE: Do not attempt to modify the distributor
housing to get distributor rotation. Distributor posi-
tion will have no effect on ignition timing.
All ignition timing functions are controlled by the
powertrain control module (PCM). For additional
information, refer to the appropriate Powertrain
Diagnostics Procedures service manual for operation
of the DRB Scan Tool.
MAP SENSOR
For an operational description, diagnosis or remov-
al/ installation procedures, refer to Group 14, Fuel
Systems.
Fig. 13 Cap Inspection—Internal—Typical
CRANKSHAFT POSITION SENSOR
DISTRIBUTOR ROTOR To perform a complete test of this sensor and its
Visually inspect the rotor (Fig. 14) for cracks, evi- circuitry, refer to the DRB scan tool. Also refer to the
dence of corrosion or the effects of arcing on the appropriate Powertrain Diagnostics Procedures man-
metal tip. Also check for evidence of mechanical ual.
interference with the cap. Some charring is normal
on the end of the metal tip. The silicone-dielectric-
8. SYNC ASSEMBLY
DISTRIBUTOR
GENERATOR
SIGNAL PULSE RING
CAMSHAFT SEN-
POSITION SOR
8D - 8 IGNITION SYSTEM XJ
DIAGNOSIS AND TESTING (Continued)
CAMSHAFT POSITION SENSOR terminal. Leave the PCM connector connected for
The camshaft position sensor is located in the dis- this test.
tributor (Fig. 15) on all engines. (9) If voltage is still not present, perform vehicle
test using the DRB scan tool.
(10) If voltage is present at cavity A-17, but not at
the supply wire:
(a) Check continuity between the supply wire.
This is checked between the distributor connector
and cavity A-17 at the PCM. If continuity is not
present, repair the harness as necessary.
(b) Check for continuity between the camshaft
position sensor output wire and cavity A-18 at the
PCM. If continuity is not present, repair the har-
ness as necessary.
(c) Check for continuity between the ground cir-
cuit wire at the distributor connector and ground.
If continuity is not present, repair the harness as
necessary.
(11) While observing the voltmeter, crank the
engine with ignition switch. The voltmeter needle
Fig. 15 Camshaft Position Sensor—Typical should fluctuate between 0 and 5 volts while the
engine is cranking. This verifies that the camshaft
To perform a complete test of this sensor and its
position sensor in the distributor is operating prop-
circuitry, refer to the appropriate Powertrain Diag-
erly and a sync pulse signal is being generated.
nostics Procedures service manual. To test the sensor
If sync pulse signal is not present, replacement of
only, refer to the following:
the camshaft position sensor is necessary
For this test, an analog (non-digital) voltme-
ter is needed. Do not remove the distributor connec-
tor from the distributor. Using small paper clips,
ENGINE COOLANT TEMPERATURE SENSOR
For an operational description, diagnosis and
insert them into the backside of the distributor wire
removal/installation procedures, refer to Group 14,
harness connector to make contact with the termi-
Fuel System.
nals. Be sure that the connector is not damaged
when inserting the paper clips. Attach voltmeter
leads to these paper clips.
INTAKE MANIFOLD AIR TEMPERATURE SENSOR
For an operational description, diagnosis and
(1) Connect the positive (+) voltmeter lead into the
removal/installation procedures, refer to Group 14,
sensor output wire. This is at done the distributor
Fuel System.
wire harness connector. For wire identification, refer
to Group 8W, Wiring Diagrams.
(2) Connect the negative (-) voltmeter lead into the
SPARK PLUG CABLES
Check the spark plug cable connections for good
ground wire. For wire identification, refer to Group
contact at the coil(s), distributor cap towers, and
8W, Wiring Diagrams.
spark plugs. Terminals should be fully seated. The
(3) Set the voltmeter to the 15 Volt DC scale.
insulators should be in good condition and should fit
(4) Remove distributor cap from distributor (two
tightly on the coil, distributor and spark plugs. Spark
screws). Rotate (crank) the engine until the distribu-
plug cables with insulators that are cracked or torn
tor rotor is approximately in the 11 o’clock position.
must be replaced.
The movable pulse ring should now be within the
Clean high voltage ignition cables with a cloth
sensor pickup.
moistened with a non-flammable solvent. Wipe the
(5) Turn ignition key to ON position. Voltmeter
cables dry. Check for brittle or cracked insulation.
should read approximately 5.0 volts.
(6) If voltage is not present, check the voltmeter TESTING
leads for a good connection. When testing secondary cables for damage with an
(7) If voltage is still not present, check for voltage oscilloscope, follow the instructions of the equipment
at the supply wire. For wire identification, refer to manufacturer.
Group 8W, Wiring Diagrams. If an oscilloscope is not available, spark plug cables
(8) If 5 volts is not present at supply wire, check may be tested as follows:
for voltage at PCM 32-way connector (cavity A-17).
Refer to Group 8W, Wiring for location of connector/
9. NORMAL DRY DEPOSITS
BLACK COLD (CARBON) FOULING
XJ IGNITION SYSTEM 8D - 9
DIAGNOSIS AND TESTING (Continued)
CAUTION: Do not leave any one spark plug cable SPARK PLUG CONDITIONS
disconnected for longer than necessary during test-
ing. This may cause possible heat damage to the NORMAL OPERATING
catalytic converter. Total test time must not exceed The few deposits present on the spark plug will
ten minutes. probably be light tan or slightly gray in color. This is
evident with most grades of commercial gasoline
With the engine running, remove spark plug cable (Fig. 16). There will not be evidence of electrode
from spark plug (one at a time) and hold next to a burning. Gap growth will not average more than
good engine ground. If the cable and spark plug are approximately 0.025 mm (.001 in) per 1600 km (1000
in good condition, the engine rpm should drop and miles) of operation. Spark plugs that have normal
the engine will run poorly. If engine rpm does not wear can usually be cleaned, have the electrodes
drop, the cable and/or spark plug may not be operat- filed, have the gap set and then be installed.
ing properly and should be replaced. Also check
engine cylinder compression.
With the engine not running, connect one end of a
test probe to a good ground. Start the engine and run
the other end of the test probe along the entire
length of all spark plug cables. If cables are cracked
or punctured, there will be a noticeable spark jump
from the damaged area to the test probe. The cable
running from the ignition coil to the distributor cap
can be checked in the same manner. Cracked, dam-
aged or faulty cables should be replaced with resis-
tance type cable. This can be identified by the words
ELECTRONIC SUPPRESSION printed on the cable
jacket.
Use an ohmmeter to test for open circuits, exces-
sive resistance or loose terminals. Remove the dis-
tributor cap from the distributor. Do not remove
cables from cap. Remove cable from spark plug. Fig. 16 Normal Operation and Cold (Carbon) Fouling
Connect ohmmeter to spark plug terminal end of Some fuel refiners in several areas of the United
cable and to corresponding electrode in distributor States have introduced a manganese additive (MMT)
cap. Resistance should be 250 to 1000 Ohms per inch for unleaded fuel. During combustion, fuel with MMT
of cable. If not, remove cable from distributor cap causes the entire tip of the spark plug to be coated
tower and connect ohmmeter to the terminal ends of with a rust colored deposit. This rust color can be
cable. If resistance is not within specifications as misdiagnosed as being caused by coolant in the com-
found in the Spark Plug Cable Resistance chart, bustion chamber. Spark plug performance is not
replace the cable. Test all spark plug cables in this affected by MMT deposits.
manner.
COLD FOULING/CARBON FOULING
MINIMUM MAXIMUM Cold fouling is sometimes referred to as carbon
250 Ohms Per Inch 1000 Ohms Per Inch fouling. The deposits that cause cold fouling are basi-
3000 Ohms Per Foot 12,000 Ohms Per Foot cally carbon (Fig. 16). A dry, black deposit on one or
two plugs in a set may be caused by sticking valves
or defective spark plug cables. Cold (carbon) fouling
SPARK PLUG CABLE RESISTANCE
of the entire set of spark plugs may be caused by a
To test ignition coil-to-distributor cap cable, do not clogged air cleaner element or repeated short operat-
remove the cable from the cap. Connect ohmmeter to ing times (short trips).
rotor button (center contact) of distributor cap and
terminal at ignition coil end of cable. If resistance is WET FOULING OR GAS FOULING
not within specifications as found in the Spark Plug A spark plug coated with excessive wet fuel or oil
Cable Resistance chart, remove the cable from the is wet fouled. In older engines, worn piston rings,
distributor cap. Connect the ohmmeter to the termi- leaking valve guide seals or excessive cylinder wear
nal ends of the cable. If resistance is not within spec- can cause wet fouling. In new or recently overhauled
ifications as found in the Spark Plug Cable engines, wet fouling may occur before break-in (nor-
Resistance chart, replace the cable. Inspect the igni- mal oil control) is achieved. This condition can usu-
tion coil tower for cracks, burns or corrosion.
10. GROUND
ELEC-
CENTER
TRODE
ELECTRODE
GROUND ELECTRODE COVERED WITH WHITE OR YELLOW DEPOSITS
CENTER
ELECTRODE
DEPOSITS
8D - 10 IGNITION SYSTEM XJ
DIAGNOSIS AND TESTING (Continued)
ally be resolved by cleaning and reinstalling the
fouled plugs.
OIL OR ASH ENCRUSTED
If one or more spark plugs are oil or oil ash
encrusted (Fig. 17), evaluate engine condition for the
cause of oil entry into that particular combustion
chamber.
Fig. 18 Electrode Gap Bridging
Fig. 17 Oil or Ash Encrusted
ELECTRODE GAP BRIDGING
Electrode gap bridging may be traced to loose
deposits in the combustion chamber. These deposits Fig. 19 Scavenger Deposits
accumulate on the spark plugs during continuous CHIPPED ELECTRODE INSULATOR
stop-and-go driving. When the engine is suddenly A chipped electrode insulator usually results from
subjected to a high torque load, deposits partially liq- bending the center electrode while adjusting the
uefy and bridge the gap between electrodes (Fig. 18). spark plug electrode gap. Under certain conditions,
This short circuits the electrodes. Spark plugs with severe detonation can also separate the insulator
electrode gap bridging can be cleaned using standard from the center electrode (Fig. 20). Spark plugs with
procedures. this condition must be replaced.
SCAVENGER DEPOSITS PREIGNITION DAMAGE
Fuel scavenger deposits may be either white or yel- Preignition damage is usually caused by excessive
low (Fig. 19). They may appear to be harmful, but combustion chamber temperature. The center elec-
this is a normal condition caused by chemical addi- trode dissolves first and the ground electrode dis-
tives in certain fuels. These additives are designed to solves somewhat latter (Fig. 21). Insulators appear
change the chemical nature of deposits and decrease relatively deposit free. Determine if the spark plug
spark plug misfire tendencies. Notice that accumula- has the correct heat range rating for the engine.
tion on the ground electrode and shell area may be Determine if ignition timing is over advanced or if
heavy, but the deposits are easily removed. Spark other operating conditions are causing engine over-
plugs with scavenger deposits can be considered nor- heating. (The heat range rating refers to the operat-
mal in condition and can be cleaned using standard ing temperature of a particular type spark plug.
procedures. Spark plugs are designed to operate within specific
temperature ranges. This depends upon the thick-
11. GROUND
STARTING
ELECTRODE
GROUND TO
DISSOLVE CENTER
CHIPPED
ELECTRODE
CENTER
ELECTRODE
INSULATOR
DISSOLVED GRAY COLORED AND
BLISTERED
CABLE
SPARK WHITE SPARK PLUG
BOOT
PLUG
INSULATOR
OR SPARK TWIST AND PULL
PLUG BOOT
PULLER
XJ IGNITION SYSTEM 8D - 11
DIAGNOSIS AND TESTING (Continued)
Fig. 20 Chipped Electrode Insulator Fig. 22 Spark Plug Overheating
ness and length of the center electrodes porcelain
insulator.)
CLOCKWISE ORDER:
FIRING 1ROTA-
3 4 2
TION FRONT
Fig. 23 Cable Removal
Install cables into the proper engine cylinder firing
Fig. 21 Preignition Damage order (Fig. 24) or (Fig. 25).
SPARK PLUG OVERHEATING
Overheating is indicated by a white or gray center
electrode insulator that also appears blistered (Fig.
22). The increase in electrode gap will be consider-
ably in excess of 0.001 inch per 1000 miles of opera-
tion. This suggests that a plug with a cooler heat
range rating should be used. Over advanced ignition
timing, detonation and cooling system malfunctions
can also cause spark plug overheating.
REMOVAL AND INSTALLATION
SPARK PLUG CABLES
CAUTION: When disconnecting a high voltage
cable from a spark plug or from the distributor cap,
twist the rubber boot slightly (1/2 turn) to break it
Fig. 24 Engine Firing Order—2.5L 4-Cylinder Engine
loose (Fig. 23). Grasp the boot (not the cable) and
pull it off with a steady, even force.
12. 8D - 12 IGNITION SYSTEM XJ
REMOVAL AND INSTALLATION (Continued)
PLUG GAP ADJUSTMENT
Check the spark plug gap with a gap gauge tool. If
the gap is not correct, adjust it by bending the
ground electrode (Fig. 26). Never attempt to adjust
the gap by bending the center electrode.
Fig. 25 Engine Firing Order—4.0L 6-Cylinder Engine
When replacing the spark plug and coil cables,
route the cables correctly and secure in the proper
retainers. Failure to route the cables properly can
cause the radio to reproduce ignition noise. It could
also cause cross ignition of the plugs or short circuit
the cables to ground.
When installing new cables, make sure a positive
connection is made. A snap should be felt when a
good connection is made between the plug cable and
the distributor cap tower.
Fig. 26 Setting Spark Plug Gap—Typical
SPARK PLUGS SPARK PLUG GAP
• 2.5L 4-Cylinder Engine Spark Plug Gap: .89 mm
PLUG REMOVAL (.035 in).
(1) Always remove spark plug or ignition coil • 4.0L 6-Cylinder Engine Spark Plug Gap: .89 mm
cables by grasping at the cable boot (Fig. 23). Turn (.035 in).
the cable boot 1/2 turn and pull straight back in a
steady motion. Never pull directly on the cable. PLUG INSTALLATION
Internal damage to cable will result. Always tighten spark plugs to the specified torque.
(2) Prior to removing the spark plug, spray com- Over tightening can cause distortion. This may result
pressed air around the spark plug hole and the area in a change in the spark plug gap, or a cracked por-
around the spark plug. This will help prevent foreign celain insulator.
material from entering the combustion chamber. When replacing the spark plug and ignition coil
(3) Remove the spark plug using a quality socket cables, route the cables correctly and secure them in
with a rubber or foam insert. the appropriate retainers. Failure to route the cables
(4) Inspect the spark plug condition. Refer to properly can cause the radio to reproduce ignition
Spark Plugs in the Diagnostics/Service Procedures noise. It could cause cross ignition of the spark plugs,
section of this group. or short circuit the cables to ground.
(1) Start the spark plug into the cylinder head by
PLUG CLEANING hand to avoid cross threading.
The plugs may be cleaned using commercially (2) Tighten the spark plugs to 35-41 N·m (26-30 ft.
available spark plug cleaning equipment. After clean- lbs.) torque.
ing, file the center electrode flat with a small point (3) Install spark plug cables over spark plugs.
file or jewelers file before adjusting gap.
IGNITION COIL
CAUTION: Never use a motorized wire wheel brush
The ignition coil is an epoxy filled type. If the coil
to clean the spark plugs. Metallic deposits will
is replaced, it must be replaced with the same type.
remain on the spark plug insulator and will cause
plug misfire.
13. SECONDARYMOUNTING BOLTS (2) SECONDARY IGNITION COIL
MOUNTING BOLTS
CABLE CABLE ELECTRICAL NECTOR
ELECTRICALCON-
IGNITION COIL
NECTORCON- POWER DISTRIBUTION(PDC)
TER CEN-
XJ IGNITION SYSTEM 8D - 13
REMOVAL AND INSTALLATION (Continued)
REMOVAL (2) Connect engine harness connector to coil.
On the 2.5L 4-cylinder engine, the ignition coil is (3) Connect ignition coil cable to ignition coil.
mounted to a bracket on side of engine (to rear of
distributor) (Fig. 27). AUTOMATIC SHUTDOWN (ASD) RELAY
On the 4.0L 6-cylinder engine, the ignition coil is The ASD relay is located in the power distribution
mounted to a bracket on side of engine (to front of center (PDC). The PDC is located in engine compart-
distributor) (Fig. 28). ment (Fig. 29). Refer to label on PDC cover for relay
location .
Fig. 27 Ignition Coil—2.5L Engine
Fig. 29 PDC Location
REMOVAL
(1) Remove PDC cover.
(2) Remove relay by lifting straight up.
INSTALLATION
(1) Check condition of relay wire terminals at PDC
for corrosion or damage. Also check heights of relay
terminal pins at PDC. Pin height should be the same
for all pins. Repair as necessary before installing
Fig. 28 Ignition Coil—4.0L Engine relay.
(2) Push relay into connector.
(1) Disconnect ignition coil secondary cable from (3) Install relay cover.
ignition coil.
(2) Disconnect engine harness connector from igni- CRANKSHAFT POSITION SENSOR
tion coil. The crankshaft position sensor is mounted to the
(3) Remove ignition coil mounting bolts (nuts are transmission bellhousing at the left/rear side of
used on back side of bracket on some coils). engine block (Fig. 30) or (Fig. 31).
(4) Remove coil from vehicle. On 2.5L 4-cylinder equipped with a manual trans-
mission, the sensor is attached with two bolts. On
INSTALLATION
2.5L engines equipped with an automatic transmis-
(1) Install ignition coil to bracket on cylinder block
sion, the sensor is attached with two nuts. All 4.0L
with mounting bolts (and nuts if equipped). If
6-cylinder engines have the sensor attached with two
equipped with nuts and bolts, tighten to 11 N·m (100
bolts.
in. lbs.) torque. If equipped with bolts only, tighten to
5 N·m (50 in. lbs.) torque.
14. 8D - 14 IGNITION SYSTEM XJ
REMOVAL AND INSTALLATION (Continued)
(3) Remove nut holding sensor harness wire clamp
to fuel rail mounting stud.
(4) Depending upon application, remove either sen-
sor mounting bolts or nuts.
(5) Remove sensor.
(6) Remove clamp from sensor wire harness.
INSTALLATION
(1) Install sensor flush against opening in trans-
mission housing.
(2) 2.5L engines equipped with automatic trans-
mission: Install and tighten two sensor mounting
nuts to 19 N·m (14 ft. lbs.) torque.
(3) 2.5L engines equipped with manual transmis-
sion or any 4.0L engines: Install and tighten two sen-
sor mounting bolts to 19 N·m (14 ft. lbs.) torque. The
two sensor mounting bolts are specially
machined to correctly space unit to flywheel.
Do not attempt to install any other bolts.
(4) Connect sensor pigtail harness electrical con-
nector to main wiring harness.
(5) Install clamp on sensor wire harness.
Fig. 30 Crankshaft Position Sensor—2.5L 4-Cyl. (6) Install clamp over fuel rail mounting stud.
Engine With Auto. Trans. (7) Install clamp mounting nut.
(8) Install air cleaner tube to throttle body (if nec-
essary).
CAMSHAFT POSITION SENSOR
The camshaft position sensor is located in the dis-
tributor (Fig. 32).
REMOVAL
Distributor removal is not necessary to remove
camshaft position sensor.
(1) Disconnect negative battery PULSE RING battery.
SYNC ASSEMBLY
DISTRIBUTOR
GENERATOR
SIGNAL
cable at CAMSHAFT SEN-
POSITION SOR
(2) Remove distributor cap from distributor (two
screws).
(3) Disconnect camshaft position sensor wiring
harness from main engine wiring harness.
Fig. 31 Crankshaft Position Sensor—Except 2.5L
4-Cyl. Engine With Auto. Trans.
REMOVAL
Some model/engine combinations may require
removal of air cleaner tubes for access to sensor.
(1) Remove air cleaner tube(s) at throttle body (if
necessary).
(2) Near rear of intake manifold, disconnect pigtail
harness (electrical connector) from main electrical
harness. Fig. 32 Camshaft Position Sensor
15. ROTOR DRIVESHAFT
PULSE RING
GEAR HOLDDOWN SENSOR PLASTICMENT PIN
WASHERCLAMP SLOT
ROLL PIN
FORKGASKET BOLT
HOLDDOWN
POSITION
CAMSHAFT
WITH ALIGN-
HOUSING
CAP
XJ IGNITION SYSTEM 8D - 15
REMOVAL AND INSTALLATION (Continued)
(4) Remove distributor rotor from distributor shaft.
(5) Lift camshaft position sensor assembly from
distributor housing (Fig. 32).
INSTALLATION
(1) Install camshaft position sensor to distributor.
Align sensor into notch on distributor housing.
(2) Connect wiring harness.
(3) Install rotor.
(4) Install distributor cap. Tighten mounting
screws.
MANIFOLD ABSOLUTE PRESSURE (MAP) SENSOR
For removal and installation, refer to Manifold
Absolute Pressure Sensor in group 14, Fuel Systems.
ENGINE COOLANT TEMPERATURE SENSOR
For an operational description, diagnosis and
removal/installation procedures, refer to Group 14,
Fuel System.
THROTTLE POSITION SENSOR
For an operational description, diagnosis and Fig. 33 Plastic Alignment Pin
removal/installation procedures, refer to Group 14,
Fuel System.
INTAKE MANIFOLD AIR TEMPERATURE SENSOR
For an operational description, diagnosis and
removal/installation procedures, refer to Group 14,
Fuel System.
DISTRIBUTOR
All distributors contain an internal oil seal that
prevents oil from entering the distributor housing.
The seal is not serviceable.
Factory replacement distributors are equipped with
a plastic alignment pin already installed. The pin is
located in an access hole on the bottom of the distrib-
utor housing (Fig. 33). It is used to temporarily lock
the rotor to the cylinder number 1 position during
installation. The pin must be removed after install-
ing the distributor.
The camshaft position sensor is located in the dis-
tributor on all engines (Fig. 34). For removal/instal-
lation procedures, refer to Camshaft Position Sensor.
Distributor removal is not necessary for sensor
removal.
Refer to (Fig. 34) for an exploded view of the dis-
tributor.
A fork with a slot is supplied on the bottom of the
distributor housing where the housing base seats
against the engine block (Fig. 34). The centerline of
the slot aligns with the distributor holddown bolt Fig. 34 Distributor—2.5L Or 4.0L Engines—Typical
hole in the engine block. Because of the fork, the dis- The position of the distributor determines fuel syn-
tributor cannot be rotated. Distributor rotation is not chronization only. It does not determine ignition tim-
necessary as all ignition timing requirements are ing.
handled by the powertrain control module (PCM).
16. 8D - 16 IGNITION SYSTEM XJ
REMOVAL AND INSTALLATION (Continued)
NOTE: Do not attempt to modify this fork to attain (11) Remove the distributor from engine by slowly
ignition timing. lifting straight up.
(12) Note that the rotor will rotate slightly in a
counterclockwise direction while lifting up the dis-
REMOVAL—2.5L OR 4.0L ENGINE tributor. The oil pump gear will also rotate slightly in
(1) Disconnect the negative battery cable at the a counterclockwise direction while lifting up the dis-
battery. tributor. This is due to the helical cut gears on the
(2) Disconnect coil secondary cable at coil. distributor and camshaft.
(3) Remove distributor cap from distributor (2 (13) Note the removed position of the rotor during
screws). Do not remove cables from cap. Do not distributor removal. During installation, this will be
remove rotor. referred to as the Pre-position.
(4) Disconnect the distributor wiring harness from (14) 2.5L 4-Cylinder Engine: Observe the slot in
the main engine harness. the oil pump gear through the hole on the side of the
(5) Remove the cylinder number 1 spark plug. engine. It should be slightly before (counterclockwise
(6) Hold a finger over the open spark plug hole. of) the 10 o’clock position (Fig. 36).
Rotate the engine at the vibration dampener bolt (15) 4.0L 6-Cylinder Engine: Observe the slot in
until compression (pressure) is felt. the oil pump gear through the hole on the side of the
(7) Slowly continue to rotate the engine. Do this engine. It should be slightly before (counterclockwise
until the timing index mark on the vibration damper of) the 11 o’clock position (Fig. 37).
pulley aligns with the top dead center (TDC) mark (0
degree) on timing degree scale (Fig. 35). Always
rotate the engine in direction of normal rotation. Do
not rotate the engine backward to align the timing
marks.
(8) On models equipped with A/C, remove the elec-
trical cooling fan and shroud assembly from the radi-
ator. Refer CRANKSHAFT TIMING MARK
to Group VIBRATION
DAMPER
7, Cooling System for
procedures.
(9) This will provide room to turn the engine
crankshaft with a socket and ratchet using the vibra-
tion damper bolt.
11 O’CLOCK POSITION OIL PUMP SLOT FRONT
Fig. 36 Slot At 10 O’clock Position—2.5L Engine
Fig. 35 Align Timing Marks Fig. 37 Slot At 11 O’clock Position—4.0L Engine
(10) Remove the distributor holddown bolt and (16) Remove and discard the old distributor-to-en-
clamp. gine block gasket.
17. HOUSING RING
DISTRIBUTOR
PLASTIC VIEW)
(TOP PULSE MATING ACCESS HOUSING 4.0LALIGN. HOLE
RING
DISTRIBUTOR HOLE IN DER
DER 6-CYLIN-
2.5L
ALIGN. HOLE
4-CYLIN-
ENGINE
ENGINE
XJ IGNITION SYSTEM 8D - 17
REMOVAL AND INSTALLATION (Continued)
INSTALLATION
(1) If the engine crankshaft has been rotated after
distributor removal, cylinder number 1 must be
returned to its proper firing stroke. Refer to previous
REMOVAL Step 5 and Step 6. These steps must be
done before installing distributor.
(2) Check the position of the slot on the oil pump
gear. On the 2.5L engine, it should be just slightly
before (counterclockwise of) the 10 o’clock position
(Fig. 36). On the 4.0L engine, it should be just
slightly before (counterclockwise of) the 11 o’clock
position (Fig. 37). If not, place a flat blade screw-
driver into the oil pump gear and rotate it into the
proper position.
(3) Factory replacement distributors are equipped
with a plastic alignment pin already installed (Fig.
33). This pin is used to temporarily hold the rotor to
the cylinder number 1 firing position during distrib-
utor installation. If this pin is in place, proceed to
Step 8. If not, proceed to next step.
(4) If the original distributor is to be reinstalled,
such as during engine overhaul, the plastic pin will
not be available. A 3/16 inch drift pin punch tool may Fig. 38 Pin Alignment Holes
be substituted for the plastic pin. rotor and distributor will rotate clockwise during
(5) Remove the camshaft position sensor from the installation. This is due to the helical cut gears on
distributor housing. Lift straight up. the distributor and camshaft. When the distributor is
(6) Four different alignment holes are provided on fully seated to the engine block, the centerline of the
the plastic ring (Fig. 38). Note that 2.5L and 4.0L base slot should be aligned to the clamp bolt mount-
engines have different alignment holes (Fig. ing hole on the engine (Fig. 41). The rotor should
38). also be pointed at the 5 o’clock position.
(7) Rotate the distributor shaft and install the pin It may be necessary to rotate the rotor and distrib-
punch tool through the proper alignment hole in the utor shaft (very slightly) to engage the distributor
plastic ring (Fig. 38) and into the mating access hole shaft with the slot in the oil pump gear. The same
in the distributor housing. This will prevent the dis- may have to be done to engage the distributor gear
tributor shaft and rotor from rotating. with the camshaft gear.
(8) Clean the distributor mounting hole area of the The distributor is correctly installed when:
engine block. • the rotor is pointed at the 3 o’clock position
(9) Install a new distributor-to-engine block gasket (2.5L engine), or at the 5 o’clock position (4.0L
(Fig. 34). engine).
(10) Install the rotor to the distributor shaft. • the plastic alignment pin (or pin punch tool) is
(11) 2.5L 4-Cylinder Engine: Pre-position the still installed to distributor.
distributor into the engine while holding the center- • the number 1 cylinder piston is set at top dead
line of the base slot in the 1 o’clock position (Fig. 39). center (TDC) (compression stroke).
Continue to engage the distributor into the engine. • the centerline of the slot at the base of the dis-
The rotor and distributor will rotate clockwise during tributor is aligned to the centerline of the distributor
installation. This is due to the helical cut gears on holddown bolt hole on the engine. In this position,
the distributor and camshaft. When the distributor is the holddown bolt should easily pass through the slot
fully seated to the engine block, the centerline of the and into the engine.
base slot should be aligned to the clamp bolt mount- No adjustments are necessary. Proceed to next
ing hole on the engine (Fig. 40). The rotor should step.
also be pointed slightly past (clockwise of) the 3 (12) Install the distributor holddown clamp and
o’clock position. bolt. Tighten the bolt to 23 N·m (17 ft. lbs.) torque.
4.0L 6-Cylinder Engine: Pre-position the distrib- (13) Remove the pin punch tool from the distribu-
utor into the engine while holding the centerline of tor. Or, if the plastic alignment pin was used, remove
the base slot in the 1 o’clock position (Fig. 39). Con- it straight down from the bottom of the distributor.
tinue to engage the distributor into the engine. The Discard plastic pin.
18. DISTRIBUTOR DISTRIBUTOR POSITION
BASE 1 BASE
O’CLOCK
DISTRIBUTOR BASE BASE SLOT HOLE
SLOT
MOUNTING
CLAMP (ON ENGINE)
FRONT
FRONT
BOLT DISTRIBUTOR
BASE DISTRIBUTOR
CLAMP HOLE (ON ENGINE)FRONT
BASE SLOT MOUNTING
BOLT
8D - 18 IGNITION SYSTEM XJ
REMOVAL AND INSTALLATION (Continued)
Fig. 39 Distributor Pre-position—All Engines Fig. 41 Distributor Engaged Position—4.0L
6-Cylinder Engine
(16) Install the distributor cap. Tighten distributor
cap holddown screws to 3 N·m (26 in. lbs.) torque.
(17) If removed, install the spark plug cables to
the distributor cap. For proper firing order, refer to
the Specifications section at the end of this group.
See Engine Firing Order.
(18) Connect the distributor wiring harness to the
main engine harness.
(19) Connect battery cable to battery.
POWERTRAIN CONTROL MODULE (PCM)
Refer to Group 14, Fuel System for procedures.
IGNITION SWITCH AND KEY CYLINDER
The ignition key must be in the key cylinder for
cylinder removal. The key cylinder must be removed
first before removing ignition switch.
KEY CYLINDER REMOVAL
(1) Disconnect negative battery cable at battery.
(2) If equipped with an automatic transmission,
Fig. 40 Distributor Engaged Position—2.5L place shifter in PARK position.
4-Cylinder Engine (3) Rotate key to ON position.
(4) A release tang is located on bottom of key cyl-
(14) If removed, install the camshaft position sen-
inder (Fig. 42).
sor to the distributor. Align the wiring harness grom-
(5) Position a small screwdriver or pin punch into
met to the notch in the distributor housing.
tang access hole on bottom of steering column lower
(15) Install the rotor.
cover (Fig. 43).
CAUTION: If the distributor cap is incorrectly posi- (6) Push the pin punch up while pulling key cylin-
tioned on distributor housing, the cap or rotor may der from steering column.
be damaged when engine is started.
19. COVER
LOWER
SCREWS (3)
COVER RELEASE TANG ACCESS
KEY CYLINDER HOLE PIN PUNCH ROTATE TO ON POSITION SCREWDRIVER IGNITION SWITCH
IGNITION SWITCH
LOCK TAB
XJ IGNITION SYSTEM 8D - 19
REMOVAL AND INSTALLATION (Continued)
Fig. 42 Key Cylinder Release Tang
Fig. 44 Ignition Switch Lock Tab
Fig. 43 Key Cylinder and Cover Removal Fig. 45 Switch In ON Position
IGNITION SWITCH REMOVAL (2) Connect two electrical connectors to rear of
(1) Remove key cylinder. Refer to previous steps. ignition switch. Make sure that locking tabs are fully
(2) Remove lower steering column cover screws seated into wiring connectors.
and remove cover (Fig. 43). (3) Position switch to column and install tamper
(3) Remove ignition switch mounting screw (Fig. proof screw. Tighten screw to 3 N·m (26 in. lbs.).
46). Use tamper proof torx bit (Snap-On SDMTR10 (4) Install steering column lower cover.
or equivalent) to remove the screw.
(4) Using a small screwdriver, push on locking tab KEY CYLINDER INSTALLATION
(Fig. 44) and remove switch from steering column. (1) If equipped with an automatic transmission,
(5) Disconnect two electrical connectors at rear of place shifter in PARK position.
ignition switch (Fig. 46). (2) Position key cylinder into steering column as it
would normally be in the ON position.
IGNITION SWITCH INSTALLATION (3) Press key cylinder into column until it snaps
(1) Before installing ignition switch, rotate the slot into position.
in the switch to the ON position (Fig. 45). (4) Check mechanical operation of switch. Auto-
matic Transmission: Be sure transmission lever is
20. ELECTRICAL CONNECTORS IGNITION WITCH
PROOF
TAMPER
SSCREW CLOCKWISE ORDER:
FIRING 1ROTA-
3 4 2
TION FRONT
8D - 20 IGNITION SYSTEM XJ
REMOVAL AND INSTALLATION (Continued)
tions on VECI label. The VECI label is located in the
engine compartment.
IGNITION TIMING
Ignition timing is not adjustable on any engine.
Refer to Ignition Timing in the Diagnostics/Service
Procedures section of this group for more informa-
tion.
ENGINE FIRING ORDER—2.5L 4-CYLINDER
ENGINE
Fig. 46 Ignition Switch Removal/Installation FRONT CLOCKWISE
1 5 3 6 2 4 ROTATION
FIRING ORDER:
locked in PARK position after key removal. If key is
difficult to rotate or is difficult to remove, the shift
lever-to-steering column cable may be out of adjust-
ment or defective. Refer to Group 21, Transmission
for procedures. Manual Transmission: Be sure key
ENGINE FIRING ORDER—4.0L 6-CYLINDER
cannot be removed until release lever is operated. If
key can be removed, release lever mechanism may be ENGINE
defective. Release lever mechanism is not serviced
separately. If repair is necessary, the steering column
must be replaced. Refer to Group 19, Steering for
procedures.
(5) Connect negative cable to battery.
(6) Check electrical operation of switch.
SHIFTER/IGNITION INTERLOCK
On models equipped with an automatic transmis-
sion, a cable connects the ignition switch with the
floor shift lever. The shifter will be locked in the
PARK position when the ignition key is in the LOCK
or ACCESSORY positions. The cable can be adjusted
or replaced. Refer to Group 21, Transmissions for
procedures. The ignition interlock device within the
steering column is not serviceable. If service is nec-
essary, the steering column must be replaced. Refer
to Group 19, Steering for procedures.
SPECIFICATIONS
VECI LABEL
If anything differs between the specifications found
on the Vehicle Emission Control Information (VECI)
label and the following specifications, use specifica-
21. XJ IGNITION SYSTEM 8D - 21
SPECIFICATIONS (Continued)
SPARK PLUGS SPARK PLUG CABLE RESISTANCE
ELECTRODE MINIMUM MAXIMUM
ENGINE PLUG TYPE
GAP 250 Ohms Per Inch 1000 Ohms Per Inch
2.5/4.0L RC12LYC 0.89 mm 3000 Ohms Per Foot 12,000 Ohms Per Foot
(0.035 in.)
IGNITION COIL RESISTANCE
COIL TOYODENSO DIAMOND
Primary Resistance .95 - 1.20 Ohms .96 - 1.18 Ohms
Secondary Resistance at 70° - 80°F 11,300 - 13,300 Ohms 11,300 - 15,300 Ohms
TORQUE CHART
DESCRIPTION TORQUE
Crankshaft Position Sensor
Mounting Bolts . . . . . . . . . . . . 19 N·m (14 ft. lbs.)
Crankshaft Position Sensor
Mounting Nuts . . . . . . . . . . . . 19 N·m (14 ft. lbs.)
Distributor Hold Down Bolt . . . . 23 N·m (17 ft. lbs.)
Ignition Coil Mounting
(if tapped bolts are used) . . . . . 5 N·m (50 in. lbs.)
Ignition Coil Mounting
(if nuts/bolts are used) . . . . . 11 N·m (100 in. lbs.)
Powertrain Control Module (PCM)
Mounting Screws . . . . . . . . . . . . 1 N·m (9 in. lbs.)
Spark Plugs (all engines) . . . . . . 41 N·m (30 ft. lbs.)